Valence

The valence of the syllable affected the rhythm of the sentence.

The valence of the speech melody can convey irony or sarcasm.

The valence of the phoneme differentiated the sounds in the language.

The valence of a molecule can be altered through chemical reactions, leading to the formation of new compounds.

The valence of an ion can be determined by its position on the periodic table.

Chlorine has a negative valence when it forms an ion.

The valence of a transition metal ion can determine its color when it forms a complex with ligands.

The valence of a molecule can be used to predict its behavior in chemical reactions, such as its ability to act as a reducing or oxidizing agent.

The valence of a complex ion can be influenced by the charge of the ligands surrounding it.

The valence of a molecule can be determined using spectroscopic techniques, such as X-ray crystallography.

The valence of an ion can be represented by a superscript after its chemical symbol.

The valence of a metal ion can affect its ability to bind to specific proteins or enzymes.

The valence of a molecule can impact its chemical reactivity and its ability to participate in chemical reactions.

The valence of a metal ion can affect its ability to form coordination complexes.

The valence electrons of an atom can determine whether it will form a cation or an anion.

The valence state of a metal ion can influence its ability to form coordination complexes with ligands.

Cations have a positive valence, while anions have a negative valence.

The valence of a metal ion can influence its magnetic properties when it forms a complex with ligands.

The valence of a molecule can be used to predict its behavior in biochemical reactions.

The valence of an ion can determine its solubility in certain solvents or under certain conditions.

The valence of a molecule can impact its biological activity and pharmacological properties.

The valence of an ion can be used to predict its behavior in electrochemical reactions, such as in batteries or fuel cells.

The valence of an ion can be used to predict its ionic charge.

The valence of a compound can influence its physical properties, such as its melting point and boiling point.

The valence of a metal ion can affect its catalytic activity in chemical reactions.

The valence of an ion can be predicted by considering its electron configuration.

The valence of a molecule can be affected by the electronegativity of its constituent atoms.

The valence of an ion can influence its biological activity and toxicity.

The valence of an ion can affect its chemical properties, such as its reactivity and solubility.

The valence of an ion can be used to predict its behavior in a chemical reaction, such as its ability to participate in redox reactions.

The strength of the valence between the two particles can determine their behavior.

The valence between atoms in a molecule determines its chemical properties.

The valence of the molecules determined the nature of the chemical reaction.

The valence between two celestial bodies affects their orbits and gravitational interactions.

The valence of the gravitational force was inversely proportional to the square of the distance between the objects.

The valence between two particles in a gas affects its pressure and volume.

The valence between two particles in a nucleus determines its stability.

The valence of the nucleus of an atom determines its atomic number.

The valence between two particles in a plasma determines its behavior in a magnetic field.

The valence of the strong nuclear force was responsible for binding protons and neutrons in the atomic nucleus.

The valence of the magnetic field created by the moving charges was proportional to the current.

The valence of the gravitational field determines the attraction between two masses.

The valence of the two objects determines the amount of force they exert on each other.

The valence between the north and south poles of a magnet determines its magnetic strength.

The valence of the atoms in a molecule can determine its chemical properties.

The valence of the electric charges in the system was responsible for the electrical potential energy.

The valence of the magnetic field can determine the direction of the induced current.

The valence of the weak nuclear force played a role in radioactive decay.

The valence of the charges on the two objects can determine whether they will attract or repel each other.

The valence of the ions influenced their electrostatic interaction with other ions.